Publication
Title
Theoretical characterization and optimization of nano-engineered superconducting scanning probe tip
Author
Abstract
Using state-of-the-art simulation methods, we optimized the performance of nanoscale superconducting scanning probe tips for advanced spatial imaging of magnetic fields. The systematic studies of the tips’ static properties as a function of the tilted magnetic field, geometric parameters, and material parameters were carried out. The sensitivity of different superconducting quantum interference devices (SQUIDs) to the magnetic field emanating from the magnetic nanoparticle, where the location of a magnetic nanoparticle is considered below the primary loop's center, was examined as a function of the primary and secondary loop dimensions. The main objective of the research was to characterize and optimize the performance of a nano-sized SQUID-on-tip (SOT) device. Optimal SOT sensitivity was sought, for different loop sizes, arm linewidth, and lead dimensions. Moreover, we revealed that a constriction in the loop arms of the SOT can substantially improve the sensitivity of the device. Finally, the properties of the theta-SOT device were examined in the presence of in-plane and out-of-plane magnetic field components, enabling nanoscale imaging of 3D distributions of the magnetic field. Altogether, the obtained results deliver an engineering solution for the optimum performance of the SOT device in desired conditions.
Language
English
Publication
Antwerpen : Universiteit Antwerpen, Faculteit Wetenschappen, Departement Fysica , 2023
Volume/pages
viii, 145 p.
Note
Supervisor: Milošević, Milorad [Supervisor]
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UAntwerpen
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Publications with a UAntwerp address
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Creation 06.10.2023
Last edited 08.11.2023
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